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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <basic/sbx.hxx>
#include "sbcomp.hxx"
#include "image.hxx"
#include "sbobjmod.hxx"
#include <svtools/miscopt.hxx>
#include <stdio.h>
#include <boost/scoped_ptr.hpp>
// To activate tracing enable in sbtrace.hxx
#ifdef DBG_TRACE_BASIC
// Trace ini file (set NULL to ignore)
// can be overridden with the environment variable OOO_BASICTRACEINI
static char GpTraceIniFile[] = "~/BasicTrace.ini";
//static char* GpTraceIniFile = NULL;
// Trace Settings, used if no ini file / not found in ini file
static char GpTraceFileNameDefault[] = "~/BasicTrace.txt";
static char* GpTraceFileName = GpTraceFileNameDefault;
// GbTraceOn:
// true = tracing is active, false = tracing is disabled, default = true
// Set to false initially if you want to activate tracing on demand with
// TraceCommand( "TraceOn" ), see below
static bool GbTraceOn = true;
// GbIncludePCodes:
// true = PCodes are written to trace, default = false, correspondents
// with TraceCommand( "PCodeOn" / "PCodeOff" ), see below
static bool GbIncludePCodes = false;
// GbInitOnlyAtOfficeStart:
// true = Tracing is only intialized onces after Office start when
// Basic runs the first time. Further calls to Basic, e.g. via events
// use the same output file. The trace ini file is not read again.
static bool GbInitOnlyAtOfficeStart = false;
static int GnIndentPerCallLevel = 4;
static int GnIndentForPCode = 2;
/*
With trace enabled the runtime function TraceCommand
can be used to influence the trace functionality
from within the running Basic macro.
Format: TraceCommand( command as String [, param as Variant] )
Supported commands (command is NOT case sensitive):
TraceCommand "TraceOn" sets GbTraceOn = true
TraceCommand "TraceOff" sets GbTraceOn = false
TraceCommand "PCodeOn" sets GbIncludePCodes = true
TraceCommand "PCodeOff" sets GbIncludePCodes = false
TraceCommand "Print", aVal writes aVal into the trace file as
long as it can be converted to string
*/
#ifdef DBG_TRACE_PROFILING
#include <algorithm>
#include <stack>
#include <canvas/elapsedtime.hxx>
//*** Profiling ***
// GbTimerOn:
// true = including time stamps
static bool GbTimerOn = true;
// GbTimeStampForEachStep:
// true = prints time stamp after each command / pcode (very slow)
static bool GbTimeStampForEachStep = false;
// GbBlockAllAfterFirstFunctionUsage:
// true = everything (commands, pcodes, functions) is only printed
// for the first usage (improves performance when tracing / pro-
// filing large macros)
static bool GbBlockAllAfterFirstFunctionUsage = false;
// GbBlockStepsAfterFirstFunctionUsage:
// true = commands / pcodes are only printed for the first time
// a function is executed. Afterwards only the entering/leaving
// messages are logged (improves performance when tracing / pro-
// filing large macros)
static bool GbBlockStepsAfterFirstFunctionUsage = false;
#endif
static void lcl_skipWhites( char*& rpc )
{
while( *rpc == ' ' || *rpc == '\t' )
++rpc;
}
inline void lcl_findNextLine( char*& rpc, char* pe )
{
// Find line end
while( rpc < pe && *rpc != 13 && *rpc != 10 )
++rpc;
// Read all
while( rpc < pe && (*rpc == 13 || *rpc == 10) )
++rpc;
}
inline bool lcl_isAlpha( char c )
{
bool bRet = (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z');
return bRet;
}
static void lcl_ReadIniFile( const char* pIniFileName )
{
const int BUF_SIZE = 1000;
static sal_Char TraceFileNameBuffer[BUF_SIZE];
sal_Char Buffer[BUF_SIZE];
sal_Char VarNameBuffer[BUF_SIZE];
sal_Char ValBuffer[BUF_SIZE];
FILE* pFile = fopen( pIniFileName ,"rb" );
if( pFile == NULL )
return;
size_t nRead = fread( Buffer, 1, BUF_SIZE, pFile );
// Scan
char* pc = Buffer;
char* pe = Buffer + nRead;
while( pc < pe )
{
lcl_skipWhites( pc ); if( pc == pe ) break;
// Read variable
char* pVarStart = pc;
while( pc < pe && lcl_isAlpha( *pc ) )
++pc;
int nVarLen = pc - pVarStart;
if( nVarLen == 0 )
{
lcl_findNextLine( pc, pe );
continue;
}
strncpy( VarNameBuffer, pVarStart, nVarLen );
VarNameBuffer[nVarLen] = '\0';
// Check =
lcl_skipWhites( pc ); if( pc == pe ) break;
if( *pc != '=' )
continue;
++pc;
lcl_skipWhites( pc ); if( pc == pe ) break;
// Read value
char* pValStart = pc;
while( pc < pe && *pc != 13 && *pc != 10 )
++pc;
int nValLen = pc - pValStart;
if( nValLen == 0 )
{
lcl_findNextLine( pc, pe );
continue;
}
strncpy( ValBuffer, pValStart, nValLen );
ValBuffer[nValLen] = '\0';
// Match variables
if( strcmp( VarNameBuffer, "GpTraceFileName") == 0 )
{
strcpy( TraceFileNameBuffer, ValBuffer );
GpTraceFileName = TraceFileNameBuffer;
}
else
if( strcmp( VarNameBuffer, "GbTraceOn") == 0 )
GbTraceOn = (strcmp( ValBuffer, "true" ) == 0);
else
if( strcmp( VarNameBuffer, "GbIncludePCodes") == 0 )
GbIncludePCodes = (strcmp( ValBuffer, "true" ) == 0);
else
if( strcmp( VarNameBuffer, "GbInitOnlyAtOfficeStart") == 0 )
GbInitOnlyAtOfficeStart = (strcmp( ValBuffer, "true" ) == 0);
else
if( strcmp( VarNameBuffer, "GnIndentPerCallLevel") == 0 )
GnIndentPerCallLevel = strtol( ValBuffer, NULL, 10 );
else
if( strcmp( VarNameBuffer, "GnIndentForPCode") == 0 )
GnIndentForPCode = strtol( ValBuffer, NULL, 10 );
#ifdef DBG_TRACE_PROFILING
else
if( strcmp( VarNameBuffer, "GbTimerOn") == 0 )
GbTimerOn = (strcmp( ValBuffer, "true" ) == 0);
else
if( strcmp( VarNameBuffer, "GbTimeStampForEachStep") == 0 )
GbTimeStampForEachStep = (strcmp( ValBuffer, "true" ) == 0);
else
if( strcmp( VarNameBuffer, "GbBlockAllAfterFirstFunctionUsage") == 0 )
GbBlockAllAfterFirstFunctionUsage = (strcmp( ValBuffer, "true" ) == 0);
else
if( strcmp( VarNameBuffer, "GbBlockStepsAfterFirstFunctionUsage") == 0 )
GbBlockStepsAfterFirstFunctionUsage = (strcmp( ValBuffer, "true" ) == 0);
#endif
}
fclose( pFile );
}
struct TraceTextData
{
OString m_aTraceStr_STMNT;
OString m_aTraceStr_PCode;
};
typedef std::hash_map< sal_Int32, TraceTextData > PCToTextDataMap;
typedef std::hash_map< OUString, PCToTextDataMap*, OUStringHash, ::std::equal_to< OUString > > ModuleTraceMap;
ModuleTraceMap GaModuleTraceMap;
ModuleTraceMap& rModuleTraceMap = GaModuleTraceMap;
static FILE* GpGlobalFile = NULL;
static void lcl_lineOut( const char* pStr, const char* pPreStr = NULL, const char* pPostStr = NULL )
{
if( GpGlobalFile != NULL )
{
fprintf( GpGlobalFile, "%s%s%s\n", pPreStr ? pPreStr : "", pStr, pPostStr ? pPostStr : "" );
fflush( GpGlobalFile );
}
}
const char* lcl_getSpaces( int nSpaceCount )
{
static const sal_Char Spaces[] = " "
" "
" ";
static const int nAvailableSpaceCount = strlen( Spaces );
static const sal_Char* pSpacesEnd = Spaces + nAvailableSpaceCount;
if( nSpaceCount > nAvailableSpaceCount )
nSpaceCount = nAvailableSpaceCount;
return pSpacesEnd - nSpaceCount;
}
static OString lcl_toOStringSkipLeadingWhites( const OUString& aStr )
{
static sal_Char Buffer[1000];
OString aOStr = OUStringToOString( OUString( aStr ), RTL_TEXTENCODING_ASCII_US );
const sal_Char* pStr = aOStr.getStr();
// Skip whitespace
sal_Char c = *pStr;
while( c == ' ' || c == '\t' )
{
pStr++;
c = *pStr;
}
int nLen = strlen( pStr );
strncpy( Buffer, pStr, nLen );
Buffer[nLen] = 0;
OString aORetStr( Buffer );
return aORetStr;
}
OUString lcl_dumpMethodParameters( SbMethod* pMethod )
{
OUString aStr;
if( pMethod == NULL )
{
return aStr;
}
SbxError eOld = SbxBase::GetError();
SbxArray* pParams = pMethod->GetParameters();
SbxInfo* pInfo = pMethod->GetInfo();
if ( pParams )
{
aStr += '(';
// 0 is sub itself
for ( sal_uInt16 nParam = 1; nParam < pParams->Count(); nParam++ )
{
SbxVariable* pVar = pParams->Get( nParam );
DBG_ASSERT( pVar, "Parameter?!" );
if ( !pVar->GetName().isEmpty() )
{
aStr += pVar->GetName();
}
else if ( pInfo )
{
const SbxParamInfo* pParam = pInfo->GetParam( nParam );
if ( pParam )
{
aStr += pParam->aName;
}
}
aStr += '=';
SbxDataType eType = pVar->GetType();
if( eType & SbxARRAY )
{
aStr += "...";
}
else if( eType != SbxOBJECT )
{
aStr += pVar->GetString();
}
if ( nParam < ( pParams->Count() - 1 ) )
{
aStr += ", ";
}
}
aStr += ')';
}
SbxBase::ResetError();
if( eOld != SbxERR_OK )
{
SbxBase::SetError( eOld );
}
return aStr;
}
// Public functions
static bool GbSavTraceOn = false;
#ifdef DBG_TRACE_PROFILING
static canvas::tools::ElapsedTime* GpTimer = NULL;
static double GdStartTime = 0.0;
static double GdLastTime = 0.0;
static bool GbBlockSteps = false;
static bool GbBlockAll = false;
struct FunctionItem
{
OUString m_aCompleteFunctionName;
double m_dTotalTime;
double m_dNetTime;
int m_nCallCount;
bool m_bBlockAll;
bool m_bBlockSteps;
FunctionItem( void )
: m_dTotalTime( 0.0 )
, m_dNetTime( 0.0 )
, m_nCallCount( 0 )
, m_bBlockAll( false )
, m_bBlockSteps( false )
{}
};
typedef std::hash_map< OUString, FunctionItem*, OUStringHash, ::std::equal_to< OUString > > FunctionItemMap;
static std::stack< double > GaCallEnterTimeStack;
static std::stack< FunctionItem* > GaFunctionItemStack;
static FunctionItemMap GaFunctionItemMap;
bool compareFunctionNetTime( FunctionItem* p1, FunctionItem* p2 )
{
return (p1->m_dNetTime > p2->m_dNetTime);
}
void lcl_printTimeOutput( void )
{
// Overall time output
lcl_lineOut( "" );
lcl_lineOut( "***** tools::Time Output *****" );
char TimeBuffer[500];
double dTotalTime = GpTimer->getElapsedTime() - GdStartTime;
sprintf( TimeBuffer, "Total execution time = %f ms", dTotalTime*1000.0 );
lcl_lineOut( TimeBuffer );
lcl_lineOut( "" );
if( GbTimerOn )
{
lcl_lineOut( "Functions:" );
std::vector<FunctionItem*> avFunctionItems;
FunctionItemMap::iterator it;
for( it = GaFunctionItemMap.begin() ; it != GaFunctionItemMap.end() ; ++it )
{
FunctionItem* pFunctionItem = it->second;
if( pFunctionItem != NULL )
{
avFunctionItems.push_back( pFunctionItem );
}
}
std::sort( avFunctionItems.begin(), avFunctionItems.end(), compareFunctionNetTime );
std::vector<FunctionItem*>::iterator itv;
for( itv = avFunctionItems.begin() ; itv != avFunctionItems.end() ; ++itv )
{
FunctionItem* pFunctionItem = *itv;
if( pFunctionItem != NULL )
{
OUString aCompleteFunctionName = pFunctionItem->m_aCompleteFunctionName;
OString aName = OUStringToOString( aCompleteFunctionName, RTL_TEXTENCODING_ASCII_US );
int nNameLen = aCompleteFunctionName.getLength();
double dFctTotalTime = pFunctionItem->m_dTotalTime;
double dFctNetTime = pFunctionItem->m_dNetTime;
double dFctTotalTimePercent = 100.0 * dFctTotalTime / dTotalTime;
double dFctNetTimePercent = 100.0 * dFctNetTime / dTotalTime;
int nSpaceCount = 30 - nNameLen;
if( nSpaceCount < 0 )
{
nSpaceCount = 2;
}
sprintf( TimeBuffer, "%s:%sCalled %d times\t%f ms (%f%%) / net %f (%f%%) ms",
aName.getStr(), lcl_getSpaces( nSpaceCount ), pFunctionItem->m_nCallCount,
dFctTotalTime*1000.0, dFctTotalTimePercent, dFctNetTime*1000.0, dFctNetTimePercent );
lcl_lineOut( TimeBuffer );
}
}
}
}
#endif
static bool GbInitTraceAlreadyCalled = false;
void dbg_InitTrace( void )
{
if( GbInitOnlyAtOfficeStart && GbInitTraceAlreadyCalled )
{
#ifdef DBG_TRACE_PROFILING
if( GbTimerOn )
{
GpTimer->continueTimer();
}
#endif
GpGlobalFile = fopen( GpTraceFileName, "a+" );
return;
}
GbInitTraceAlreadyCalled = true;
if( const sal_Char* pcIniFileName = ::getenv( "OOO_BASICTRACEINI" ) )
{
lcl_ReadIniFile( pcIniFileName );
}
else if( GpTraceIniFile != NULL )
{
lcl_ReadIniFile( GpTraceIniFile );
}
GpGlobalFile = fopen( GpTraceFileName, "w" );
GbSavTraceOn = GbTraceOn;
if( !GbTraceOn )
{
lcl_lineOut( "### Program started with trace off ###" );
}
#ifdef DBG_TRACE_PROFILING
GpTimer = new canvas::tools::ElapsedTime();
GdStartTime = GpTimer->getElapsedTime();
GdLastTime = GdStartTime;
GbBlockSteps = false;
GbBlockAll = false;
#endif
}
void dbg_DeInitTrace( void )
{
GbTraceOn = GbSavTraceOn;
#ifdef DBG_TRACE_PROFILING
while( !GaCallEnterTimeStack.empty() )
{
GaCallEnterTimeStack.pop();
}
while( !GaFunctionItemStack.empty() )
{
GaFunctionItemStack.pop();
}
lcl_printTimeOutput();
for( FunctionItemMap::iterator it = GaFunctionItemMap.begin() ; it != GaFunctionItemMap.end() ; ++it )
{
delete it->second;
}
GaFunctionItemMap.clear();
if( GpGlobalFile )
{
fclose( GpGlobalFile );
GpGlobalFile = NULL;
}
if( GbInitOnlyAtOfficeStart )
{
if( GbTimerOn )
{
GpTimer->pauseTimer();
}
}
else
{
delete GpTimer;
}
#endif
}
static sal_Int32 GnLastCallLvl = 0;
void dbg_tracePrint( const OUString& aStr, sal_Int32 nCallLvl, bool bCallLvlRelativeToCurrent )
{
if( bCallLvlRelativeToCurrent )
{
nCallLvl += GnLastCallLvl;
}
int nIndent = nCallLvl * GnIndentPerCallLevel;
lcl_lineOut( OUStringToOString( OUString( aStr ), RTL_TEXTENCODING_ASCII_US ).getStr(), lcl_getSpaces( nIndent ) );
}
void dbg_traceStep( SbModule* pModule, sal_uInt32 nPC, sal_Int32 nCallLvl )
{
if( !GbTraceOn )
{
return;
}
#ifdef DBG_TRACE_PROFILING
if( GbBlockSteps || GbBlockAll )
{
return;
}
double dCurTime = 0.0;
bool bPrintTimeStamp = false;
if( GbTimerOn )
{
GpTimer->pauseTimer();
dCurTime = GpTimer->getElapsedTime();
bPrintTimeStamp = GbTimeStampForEachStep;
}
#else
bool bPrintTimeStamp = false;
#endif
GnLastCallLvl = nCallLvl;
SbModule* pTraceMod = pModule;
if( pTraceMod->ISA(SbClassModuleObject) )
{
SbClassModuleObject* pClassModuleObj = (SbClassModuleObject*)(SbxBase*)pTraceMod;
pTraceMod = pClassModuleObj->getClassModule();
}
OUString aModuleName = pTraceMod->GetName();
ModuleTraceMap::iterator it = rModuleTraceMap.find( aModuleName );
if( it == rModuleTraceMap.end() )
{
OString aModuleNameStr = OUStringToOString( OUString( aModuleName ), RTL_TEXTENCODING_ASCII_US );
char Buffer[200];
sprintf( Buffer, "TRACE ERROR: Unknown module \"%s\"", aModuleNameStr.getStr() );
lcl_lineOut( Buffer );
return;
}
PCToTextDataMap* pInnerMap = it->second;
if( pInnerMap == NULL )
{
lcl_lineOut( "TRACE INTERNAL ERROR: No inner map" );
return;
}
PCToTextDataMap::iterator itInner = pInnerMap->find( nPC );
if( itInner == pInnerMap->end() )
{
OString aModuleNameStr = OUStringToOString( OUString( aModuleName ), RTL_TEXTENCODING_ASCII_US );
char Buffer[200];
sprintf( Buffer, "TRACE ERROR: No info for PC = %d in module \"%s\"", (int)nPC, aModuleNameStr.getStr() );
lcl_lineOut( Buffer );
return;
}
int nIndent = nCallLvl * GnIndentPerCallLevel;
const TraceTextData& rTraceTextData = itInner->second;
const OString& rStr_STMNT = rTraceTextData.m_aTraceStr_STMNT;
bool bSTMT = false;
if( !rStr_STMNT.isEmpty() )
{
bSTMT = true;
}
char TimeBuffer[200];
memset (TimeBuffer, 0, size(TimeBuffer));
#ifdef DBG_TRACE_PROFILING
if( bPrintTimeStamp )
{
double dDiffTime = dCurTime - GdLastTime;
GdLastTime = dCurTime;
sprintf( TimeBuffer, "\t\t// tools::Time = %f ms / += %f ms", dCurTime*1000.0, dDiffTime*1000.0 );
}
#endif
if( bSTMT )
{
lcl_lineOut( rStr_STMNT.getStr(), lcl_getSpaces( nIndent ),
(bPrintTimeStamp && !GbIncludePCodes) ? TimeBuffer : NULL );
}
if( !GbIncludePCodes )
{
#ifdef DBG_TRACE_PROFILING
if( GbTimerOn )
{
GpTimer->continueTimer();
}
#endif
return;
}
nIndent += GnIndentForPCode;
const OString& rStr_PCode = rTraceTextData.m_aTraceStr_PCode;
if( !rStr_PCode.isEmpty() )
{
lcl_lineOut( rStr_PCode.getStr(), lcl_getSpaces( nIndent ),
bPrintTimeStamp ? TimeBuffer : NULL );
}
#ifdef DBG_TRACE_PROFILING
if( GbTimerOn )
{
GpTimer->continueTimer();
}
#endif
}
void dbg_traceNotifyCall( SbModule* pModule, SbMethod* pMethod, sal_Int32 nCallLvl, bool bLeave )
{
if( !GbTraceOn )
{
return;
}
#ifdef DBG_TRACE_PROFILING
double dCurTime = 0.0;
double dExecutionTime = 0.0;
if( GbTimerOn )
{
dCurTime = GpTimer->getElapsedTime();
GpTimer->pauseTimer();
}
#endif
GnLastCallLvl = nCallLvl;
SbModule* pTraceMod = pModule;
SbClassModuleObject* pClassModuleObj = NULL;
if( pTraceMod->ISA(SbClassModuleObject) )
{
pClassModuleObj = (SbClassModuleObject*)(SbxBase*)pTraceMod;
pTraceMod = pClassModuleObj->getClassModule();
}
OUString aCompleteFunctionName = pTraceMod->GetName();
if( pMethod != NULL )
{
aCompleteFunctionName += "::";
OUString aMethodName = pMethod->GetName();
aCompleteFunctionName += aMethodName;
}
else
{
aCompleteFunctionName += "/RunInit";
}
bool bOwnBlockSteps = false;
#ifdef DBG_TRACE_PROFILING
bool bOwnBlockAll = false;
FunctionItem* pFunctionItem = NULL;
if( GbTimerOn )
{
FunctionItemMap::iterator itFunctionItem = GaFunctionItemMap.find( aCompleteFunctionName );
if( itFunctionItem != GaFunctionItemMap.end() )
{
pFunctionItem = itFunctionItem->second;
}
if( pFunctionItem == NULL )
{
DBG_ASSERT( !bLeave, "No FunctionItem in leave!" );
pFunctionItem = new FunctionItem();
pFunctionItem->m_aCompleteFunctionName = aCompleteFunctionName;
GaFunctionItemMap[ aCompleteFunctionName ] = pFunctionItem;
}
else if( GbBlockAllAfterFirstFunctionUsage && !bLeave )
{
pFunctionItem->m_bBlockAll = true;
}
else if( GbBlockStepsAfterFirstFunctionUsage && !bLeave )
{
pFunctionItem->m_bBlockSteps = true;
}
if( bLeave )
{
bOwnBlockAll = GbBlockAll;
bOwnBlockSteps = GbBlockSteps;
GbBlockAll = false;
GbBlockSteps = false;
dExecutionTime = dCurTime - GaCallEnterTimeStack.top();
GaCallEnterTimeStack.pop();
pFunctionItem->m_dTotalTime += dExecutionTime;
pFunctionItem->m_dNetTime += dExecutionTime;
pFunctionItem->m_nCallCount++;
GaFunctionItemStack.pop();
if( !GaFunctionItemStack.empty() )
{
FunctionItem* pParentItem = GaFunctionItemStack.top();
if( pParentItem != NULL )
{
pParentItem->m_dNetTime -= dExecutionTime;
GbBlockSteps = pParentItem->m_bBlockSteps;
GbBlockAll = pParentItem->m_bBlockAll;
}
}
}
else
{
GbBlockSteps = bOwnBlockSteps = pFunctionItem->m_bBlockSteps;
GbBlockAll = bOwnBlockAll = pFunctionItem->m_bBlockAll;
GaCallEnterTimeStack.push( dCurTime );
GaFunctionItemStack.push( pFunctionItem );
}
}
if( bOwnBlockAll )
{
if( GbTimerOn )
{
GpTimer->continueTimer();
}
return;
}
#endif
if( nCallLvl > 0 )
{
nCallLvl--;
}
int nIndent = nCallLvl * GnIndentPerCallLevel;
if( !bLeave && !bOwnBlockSteps )
{
static const char* pSeparator = "' ================================================================================";
lcl_lineOut( "" );
lcl_lineOut( pSeparator, lcl_getSpaces( nIndent ) );
}
OUString aStr;
if( bLeave )
{
if( !bOwnBlockSteps )
{
lcl_lineOut( "}", lcl_getSpaces( nIndent ) );
aStr = "' Leaving ";
}
}
else
{
aStr = "Entering " ;
}
if( !bLeave || !bOwnBlockSteps )
{
aStr += aCompleteFunctionName;
}
if( !bOwnBlockSteps && pClassModuleObj != NULL )
{
aStr += "[this=";
aStr += pClassModuleObj->GetName();
aStr += "]" ;
}
if( !bLeave )
{
aStr += lcl_dumpMethodParameters( pMethod );
}
const char* pPostStr = NULL;
#ifdef DBG_TRACE_PROFILING
char TimeBuffer[200];
if( GbTimerOn && bLeave )
{
sprintf( TimeBuffer, " // Execution tools::Time = %f ms", dExecutionTime*1000.0 );
pPostStr = TimeBuffer;
}
#endif
lcl_lineOut( (!bLeave || !bOwnBlockSteps) ? OUStringToOString( OUString( aStr ), RTL_TEXTENCODING_ASCII_US ).getStr() : "}",
lcl_getSpaces( nIndent ), pPostStr );
if( !bLeave )
{
lcl_lineOut( "{", lcl_getSpaces( nIndent ) );
}
if( bLeave && !bOwnBlockSteps )
{
lcl_lineOut( "" );
}
#ifdef DBG_TRACE_PROFILING
if( GbTimerOn )
{
GpTimer->continueTimer();
}
#endif
}
void dbg_traceNotifyError( SbError nTraceErr, const OUString& aTraceErrMsg,
bool bTraceErrHandled, sal_Int32 nCallLvl )
{
if( !GbTraceOn )
{
return;
}
#ifdef DBG_TRACE_PROFILING
if( GbBlockSteps || GbBlockAll )
{
return;
}
#endif
GnLastCallLvl = nCallLvl;
OString aOTraceErrMsg = OUStringToOString( OUString( aTraceErrMsg ), RTL_TEXTENCODING_ASCII_US );
char Buffer[200];
const char* pHandledStr = bTraceErrHandled ? " / HANDLED" : "";
sprintf( Buffer, "*** ERROR%s, Id = %d, Msg = \"%s\" ***", pHandledStr, (int)nTraceErr, aOTraceErrMsg.getStr() );
int nIndent = nCallLvl * GnIndentPerCallLevel;
lcl_lineOut( Buffer, lcl_getSpaces( nIndent ) );
}
void dbg_RegisterTraceTextForPC( SbModule* pModule, sal_uInt32 nPC,
const OUString& aTraceStr_STMNT, const OUString& aTraceStr_PCode )
{
OUString aModuleName = pModule->GetName();
ModuleTraceMap::iterator it = rModuleTraceMap.find( aModuleName );
PCToTextDataMap* pInnerMap;
if( it == rModuleTraceMap.end() )
{
pInnerMap = new PCToTextDataMap();
rModuleTraceMap[ aModuleName ] = pInnerMap;
}
else
{
pInnerMap = it->second;
}
TraceTextData aData;
OString aOTraceStr_STMNT = lcl_toOStringSkipLeadingWhites( aTraceStr_STMNT );
aData.m_aTraceStr_STMNT = aOTraceStr_STMNT;
OString aOTraceStr_PCode = lcl_toOStringSkipLeadingWhites( aTraceStr_PCode );
aData.m_aTraceStr_PCode = aOTraceStr_PCode;
(*pInnerMap)[nPC] = aData;
}
void RTL_Impl_TraceCommand( StarBASIC* pBasic, SbxArray& rPar, sal_Bool bWrite )
{
(void)pBasic;
(void)bWrite;
if ( rPar.Count() < 2 )
{
StarBASIC::Error( SbERR_BAD_ARGUMENT );
return;
}
OUString aCommand = rPar.Get(1)->GetString();
if( aCommand.equalsIngoreAsciiCase( "TraceOn" ) )
{
GbTraceOn = true;
}
else if( aCommand.equalsIngoreAsciiCase( "TraceOff" ) )
{
GbTraceOn = false;
}
else if( aCommand.equalsIngoreAsciiCase( "PCodeOn" ) )
{
GbIncludePCodes = true;
}
else if( aCommand.equalsIngoreAsciiCase( "PCodeOff" ) )
{
GbIncludePCodes = false;
}
else if( aCommand.equalsIngoreAsciiCase( "Print" ) )
{
if ( rPar.Count() < 3 )
{
StarBASIC::Error( SbERR_BAD_ARGUMENT );
return;
}
SbxError eOld = SbxBase::GetError();
if( eOld != SbxERR_OK )
SbxBase::ResetError();
OUString aValStr = rPar.Get(2)->GetString();
SbxError eErr = SbxBase::GetError();
if( eErr != SbxERR_OK )
{
aValStr = "<ERROR converting value to String>";
SbxBase::ResetError();
}
char Buffer[500];
sprintf( Buffer, "### TRACE_PRINT: %s ###", OUStringToOString( OUString( aValStr ), RTL_TEXTENCODING_ASCII_US ).getStr() );
int nIndent = GnLastCallLvl * GnIndentPerCallLevel;
lcl_lineOut( Buffer, lcl_getSpaces( nIndent ) );
if( eOld != SbxERR_OK )
{
SbxBase::SetError( eOld );
}
}
}
#endif
// This routine is defined here, so that the
// compiler can be loaded as a discrete segment.
bool SbModule::Compile()
{
if( pImage )
return true;
StarBASIC* pBasic = PTR_CAST(StarBASIC,GetParent());
if( !pBasic )
return false;
SbxBase::ResetError();
SbModule* pOld = GetSbData()->pCompMod;
GetSbData()->pCompMod = this;
boost::scoped_ptr<SbiParser> pParser(new SbiParser( static_cast<StarBASIC*>(GetParent()), this ));
while( pParser->Parse() ) {}
if( !pParser->GetErrors() )
pParser->aGen.Save();
pParser.reset();
// for the disassembler
if( pImage )
pImage->aOUSource = aOUSource;
GetSbData()->pCompMod = pOld;
// compiling a module, the module-global
// variables of all modules become invalid
bool bRet = IsCompiled();
if( bRet )
{
if( !this->ISA(SbObjModule) )
pBasic->ClearAllModuleVars();
RemoveVars(); // remove 'this' Modules variables
// clear all method statics
for( sal_uInt16 i = 0; i < pMethods->Count(); i++ )
{
SbMethod* p = PTR_CAST(SbMethod,pMethods->Get( i ) );
if( p )
p->ClearStatics();
}
// #i31510 Init other libs only if Basic isn't running
if( GetSbData()->pInst == NULL )
{
SbxObject* pParent_ = pBasic->GetParent();
if( pParent_ )
pBasic = PTR_CAST(StarBASIC,pParent_);
if( pBasic )
pBasic->ClearAllModuleVars();
}
}
return bRet;
}
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